/// @file
/// @author David Pilger <dpilger26@gmail.com>
/// [GitHub Repository](https://github.com/dpilger26/NumCpp)
///
/// License
/// Copyright 2018-2022 David Pilger
///
/// Permission is hereby granted, free of charge, to any person obtaining a copy of this
/// software and associated documentation files(the "Software"), to deal in the Software
/// without restriction, including without limitation the rights to use, copy, modify,
/// merge, publish, distribute, sublicense, and/or sell copies of the Software, and to
/// permit persons to whom the Software is furnished to do so, subject to the following
/// conditions :
///
/// The above copyright notice and this permission notice shall be included in all copies
/// or substantial portions of the Software.
///
/// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
/// INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
/// PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE
/// FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
/// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
/// DEALINGS IN THE SOFTWARE.
///
/// Description
/// holds the information for a centroid
///
#pragma once

#include <cmath>
#include <iostream>
#include <string>
#include <type_traits>

#include "NumCpp/Core/Internal/StaticAsserts.hpp"
#include "NumCpp/Core/Types.hpp"
#include "NumCpp/Functions/centerOfMass.hpp"
#include "NumCpp/ImageProcessing/Cluster.hpp"
#include "NumCpp/NdArray.hpp"
#include "NumCpp/Utils/essentiallyEqual.hpp"
#include "NumCpp/Utils/num2str.hpp"

namespace nc
{
    namespace imageProcessing
    {
        //================================================================================
        // Class Description:
        /// holds the information for a centroid
        template<typename dtype>
        class Centroid
        {
        private:
            STATIC_ASSERT_ARITHMETIC(dtype);

        public:
            using accumulator_t = typename std::conditional<std::is_integral<dtype>::value, int64, double>::type;

            //=============================================================================
            // Description:
            /// defualt constructor needed by containers
            ///
            Centroid() = default;

            //=============================================================================
            // Description:
            /// constructor
            ///
            /// @param inCluster
            ///
            explicit Centroid(const Cluster<dtype>& inCluster) :
                intensity_(inCluster.intensity()),
                eod_(inCluster.eod())
            {
                centerOfMass(inCluster);
                setEllipseProperties(inCluster);
            }

            //=============================================================================
            // Description:
            /// gets the centroid row
            ///
            /// @return centroid row
            ///
            double row() const noexcept
            {
                return row_;
            }

            //=============================================================================
            // Description:
            /// gets the centroid col
            ///
            /// @return centroid col
            ///
            double col() const noexcept
            {
                return col_;
            }

            //=============================================================================
            // Description:
            /// gets the centroid intensity
            ///
            /// @return centroid intensity
            ///
            accumulator_t intensity() const noexcept
            {
                return intensity_;
            }

            //=============================================================================
            // Description:
            /// returns the estimated eod of the centroid
            ///
            /// @return star id
            ///
            double eod() const noexcept
            {
                return eod_;
            }

            //=============================================================================
            // Description:
            /// returns the ellipse semi-major axis a
            ///
            /// @return a
            ///
            double a() const noexcept
            {
                return a_;
            }

            //=============================================================================

            // Description:
            /// returns the ellipse semi-minor axis b
            ///
            /// @return b
            ///
            double b() const noexcept
            {
                return b_;
            }

            //=============================================================================
            // Description:
            /// returns the ellipse eccentricity
            ///
            /// @return eccentricity
            ///
            double eccentricity() const noexcept
            {
                return eccentricity_;
            }

            //=============================================================================

            // Description:
            /// returns the ellipse semi-minor axis orientation
            ///
            /// @return orientation
            ///
            double orientation() const noexcept
            {
                return orientation_;
            }

            //=============================================================================
            // Description:
            /// returns the centroid as a string representation
            ///
            /// @return std::string
            ///
            std::string str() const
            {
                std::string out = "row = " + utils::num2str(row_) + " col = " + utils::num2str(col_) +
                                  " intensity = " + utils::num2str(intensity_) + " eod = " + utils::num2str(eod_) +
                                  " a = " + utils::num2str(a_) + " b = " + utils::num2str(b_) +
                                  " eccentricity = " + utils::num2str(eccentricity_) +
                                  " orientation = " + utils::num2str(orientation_) + '\n';

                return out;
            }

            //============================================================================
            /// Method Description:
            /// prints the Centroid object to the console
            ///
            void print() const
            {
                std::cout << *this;
            }

            //=============================================================================
            // Description:
            /// equality operator
            ///
            /// @param rhs
            ///
            /// @return bool
            ///
            bool operator==(const Centroid<dtype>& rhs) const noexcept
            {
                return (row_ == rhs.row_ && col_ == rhs.col_ && intensity_ == rhs.intensity_ &&
                        utils::essentiallyEqual(eod_, rhs.eod_) && utils::essentiallyEqual(a_, rhs.a_) &&
                        utils::essentiallyEqual(b_, rhs.b_) &&
                        utils::essentiallyEqual(eccentricity_, rhs.eccentricity_) &&
                        utils::essentiallyEqual(orientation_, rhs.orientation_));
            }

            //=============================================================================
            // Description:
            /// not equality operator
            ///
            /// @param rhs
            ///
            /// @return bool
            ///
            bool operator!=(const Centroid<dtype>& rhs) const noexcept
            {
                return !(*this == rhs);
            }

            //=============================================================================
            // Description:
            /// less than operator for std::sort algorithm;
            /// NOTE: std::sort sorts in ascending order. Since I want to sort
            /// the centroids in descensing order, I am purposefully defining
            /// this operator backwards!
            ///
            /// @param rhs
            ///
            /// @return bool
            ///
            bool operator<(const Centroid<dtype>& rhs) const noexcept
            {
                return intensity_ < rhs.intensity_ ? false : true;
            }

            //=============================================================================
            // Description:
            /// ostream operator
            ///
            /// @param inStream
            /// @param inCentriod
            /// @return std::ostream
            ///
            friend std::ostream& operator<<(std::ostream& inStream, const Centroid<dtype>& inCentriod)
            {
                inStream << inCentriod.str();
                return inStream;
            }

        private:
            //==================================Attributes================================///
            double        row_{ 0. };
            double        col_{ 0. };
            accumulator_t intensity_{ 0 };
            double        eod_{ 0. };
            /// The ellipse semi-major axis a
            double a_;
            /// The ellipse semi-minor axis b
            double b_;
            /// The centriod eccentricity
            double eccentricity_;
            /// The centriod ellipse orientation in radians.  Measured counter-clockwise from +x axis
            double orientation_;

            //=============================================================================
            // Description:
            /// center of mass algorithm;
            /// WARNING: if both positive and negative values are present in the cluster,
            /// it can lead to an undefined COM.
            ///
            /// @param inCluster
            ///
            void centerOfMass(const Cluster<dtype>& inCluster)
            {
                const Shape    clusterShape(inCluster.height(), inCluster.width());
                NdArray<dtype> clusterArray(clusterShape);
                clusterArray.zeros();

                const uint32 rowMin = inCluster.rowMin();
                const uint32 colMin = inCluster.colMin();

                for (auto& pixel : inCluster)
                {
                    clusterArray(pixel.row - rowMin, pixel.col - colMin) = pixel.intensity;
                }

                const auto rowCol = nc::centerOfMass(clusterArray);
                row_              = rowCol.front() + rowMin;
                col_              = rowCol.back() + colMin;
            }

            //=============================================================================
            // Description:
            /// Sets the cluster ellipse properties
            ///
            /// @param inCluster
            ///
            void setEllipseProperties(const Cluster<dtype>& inCluster) noexcept
            {
                constexpr double two = static_cast<double>(2.);

                double m20 = static_cast<double>(0.);
                double m02 = static_cast<double>(0.);
                double m11 = static_cast<double>(0.);

                for (typename Cluster<dtype>::const_iterator iter = inCluster.begin(); iter != inCluster.end(); ++iter)
                {
                    const auto&  pixel  = *iter;
                    const double deltaX = pixel.col - col_;
                    const double deltaY = pixel.row - row_;

                    m11 += deltaX * deltaY;
                    m20 += utils::sqr(deltaX);
                    m02 += utils::sqr(deltaY);
                }

                const double numPixels = static_cast<double>(inCluster.size());
                m11 /= numPixels;
                m20 /= numPixels;
                m02 /= numPixels;

                double piece1 = m20 + m02;
                piece1 /= two;

                double piece2 = std::sqrt(static_cast<double>(4.) * utils::sqr(m11) + utils::sqr(m20 - m02));
                piece2 /= two;

                const double lambda1 = piece1 - piece2;
                const double lambda2 = piece1 + piece2;

                eccentricity_ = std::sqrt(static_cast<double>(1.) - lambda1 / lambda2);
                orientation_  = static_cast<double>(-0.5) * std::atan2(two * m11, m20 - m02);
                a_            = two * std::sqrt(lambda2);
                b_            = two * std::sqrt(lambda1);
            }
        };
    } // namespace imageProcessing
} // namespace nc
